Dynamical backaction of microwave fields on a nanomechanical oscillator

We measure the response and thermal motion of a high-Q nanomechanical oscillator coupled to a superconducting microwave cavity in the resolved-sideband regime where the oscillator's resonance frequency exceeds the cavity's linewidth. The coupling between the microwave field and mechanical...

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Published inPhysical review letters Vol. 101; no. 19; p. 197203
Main Authors Teufel, J D, Harlow, J W, Regal, C A, Lehnert, K W
Format Journal Article
LanguageEnglish
Published United States 07.11.2008
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Abstract We measure the response and thermal motion of a high-Q nanomechanical oscillator coupled to a superconducting microwave cavity in the resolved-sideband regime where the oscillator's resonance frequency exceeds the cavity's linewidth. The coupling between the microwave field and mechanical motion is strong enough for radiation pressure to overwhelm the intrinsic mechanical damping. This radiation-pressure damping cools the fundamental mechanical mode by a factor of 5 below the thermal equilibrium temperature in a dilution refrigerator to a phonon occupancy of 140 quanta.
AbstractList We measure the response and thermal motion of a high-Q nanomechanical oscillator coupled to a superconducting microwave cavity in the resolved-sideband regime where the oscillator's resonance frequency exceeds the cavity's linewidth. The coupling between the microwave field and mechanical motion is strong enough for radiation pressure to overwhelm the intrinsic mechanical damping. This radiation-pressure damping cools the fundamental mechanical mode by a factor of 5 below the thermal equilibrium temperature in a dilution refrigerator to a phonon occupancy of 140 quanta.
Author Regal, C A
Harlow, J W
Lehnert, K W
Teufel, J D
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  givenname: J W
  surname: Harlow
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  surname: Regal
  fullname: Regal, C A
– sequence: 4
  givenname: K W
  surname: Lehnert
  fullname: Lehnert, K W
BackLink https://www.ncbi.nlm.nih.gov/pubmed/19113301$$D View this record in MEDLINE/PubMed
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Snippet We measure the response and thermal motion of a high-Q nanomechanical oscillator coupled to a superconducting microwave cavity in the resolved-sideband regime...
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